山西建筑
山西建築
산서건축
SHANXI ARCHITECTURE
2012年
6期
121-123
,共3页
碳/玻璃纤维混合编织网%电热性能%融冰%电阻率
碳/玻璃纖維混閤編織網%電熱性能%融冰%電阻率
탄/파리섬유혼합편직망%전열성능%융빙%전조솔
carbon/glass fiber weaving mesh%thermal performance%melting ice%electrical resistivity
利用碳/玻璃纤维混合编织网的电热性能,开展了碳/玻璃纤维混合编织网增强混凝土的电热融冰试验研究。结果表明:碳/玻璃纤维混合编织网通电后可以形成稳定的导电加热网络,低电压下即可迅速产生热量使混凝土温度上升,升温过程中电阻率稳定,融冰效果较好。通过分析环境温度、冰层厚度、加热功率等因素对于能耗及融冰效率的影响,为实际应用中的功率控制提供了依据。
利用碳/玻璃纖維混閤編織網的電熱性能,開展瞭碳/玻璃纖維混閤編織網增彊混凝土的電熱融冰試驗研究。結果錶明:碳/玻璃纖維混閤編織網通電後可以形成穩定的導電加熱網絡,低電壓下即可迅速產生熱量使混凝土溫度上升,升溫過程中電阻率穩定,融冰效果較好。通過分析環境溫度、冰層厚度、加熱功率等因素對于能耗及融冰效率的影響,為實際應用中的功率控製提供瞭依據。
이용탄/파리섬유혼합편직망적전열성능,개전료탄/파리섬유혼합편직망증강혼응토적전열융빙시험연구。결과표명:탄/파리섬유혼합편직망통전후가이형성은정적도전가열망락,저전압하즉가신속산생열량사혼응토온도상승,승온과정중전조솔은정,융빙효과교호。통과분석배경온도、빙층후도、가열공솔등인소대우능모급융빙효솔적영향,위실제응용중적공솔공제제공료의거。
Making use of thermal performance of carbon/glass fiber weaving mesh,this paper launches an experiment on carbon/glass fiber weaving mesh enhancing concrete thermal melting ice.Results show that: after electricity,carbon/glass fiber weaving mesh can form stable conducting heating network,and rapidly produce heat and improve concrete temperature under low voltage,and the electrical resistivity is stable in temperature improving process with good melting ice effect.The analysis on the factors including environment temperature,ice thickness,and heating resistivity on energy consumption and ice melting has vided basis for the resistivity control in actual application.
